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Precipitation of antimony from the solution of sodium thioantimonite by air oxidation in the presence of catalytic agents 被引量:3

Precipitation of antimony from the solution of sodium thioantimonite by air oxidation in the presence of catalytic agents
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摘要 The behavior of antimony oxidation in the solution of sodium thioantimonite was studied in the presence of catalytic agents. The catalytic effects of the respective addition of cupric sulfate, sodium tartrate, potassium permanganate, phenol, 1,2 dihydroxybenzene and their combination on the oxidation of sodium thioantimonite were investigated. A pilot test was carried out. The results show that the respective use of sodium tartrate, cupric sulfate, potassium permanganate, phenol and 1,2 dihydroxybenzene have little catalytic effect on the oxidation of sodium thioantimonite. However there exists obvious catalytic oxidation by the combination of 0.25 g/L 1,2 dihydroxybenzene, 0.5 g/L potassium permanganate and 1.0 g/L phenol. Moreover, high blast intensity, the increase of temperature and NaOH concentration favor the oxidation of antimony. The oxidation process of antimony has such advantages as quick reaction and low operation costs. The results of the pilot test are consistent with those of laboratory experiments. The behavior of antimony oxidation in the solution of sodium thioantimonite was studied in the presence of catalytic agents. The catalytic effects of the respective addition of cupric sulfate, sodium tartrate, potassium permanganate, phenol, 1,2 dihydroxybenzene and their combination on the oxidation of sodium thioantimonite were investigated. A pilot test was carried out. The results show that the respective use of sodium tartrate, cupric sulfate, potassium permanganate, phenol and 1,2 dihydroxybenzene have little catalytic effect on the oxidation of sodium thioantimonite. However there exists obvious catalytic oxidation by the combination of 0.25 g/L 1,2 dihydroxybenzene, 0.5 g/L potassium permanganate and 1.0 g/L phenol. Moreover, high blast intensity, the increase of temperature and NaOH concentration favor the oxidation of antimony. The oxidation process of antimony has such advantages as quick reaction and low operation costs. The results of the pilot test are consistent with those of laboratory experiments.
出处 《Journal of Central South University of Technology》 2002年第2期107-111,共5页 中南工业大学学报(英文版)
基金 TheKeyProgramof 9thFive YearPlanofChina (No 96 915 0 8 0 4 )
关键词 sodium thioantimonite air oxidization catalyzer 析出 硫代亚锑酸钠溶液 空气氧化 催化剂
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参考文献5

  • 1CHEN Rong-an.The study on preparation of sodium pyroantimonate by wet process from stibnite[].Inorganic Chemicals Industry(in Chinese).1992
  • 2LI Dong-ming,JIANG De-yan.The preparation of sodium antimonate by intense jetting oxidation( in Chinese)[]..1996
  • 3ZHAO Tian-cong.Metallurgy of antimony[]..1987
  • 4YANG Tian-zu,TANG Jian-jun,BIN Wan-da.Research progress and technological process for sodium pyroantimonate production[].Inorganic Chemicals Industry( in Chinese).1999
  • 5TANG Tie-qiao.The preparation of sodium pyroantimonate by wet process from antimony concentrate(in Chinese)[].CN:A.1986

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